RU117948U1 - BUILDING PLATE - Google Patents

Abstract

1. A building board containing a heat-insulating layer in the form of an extruded polystyrene foam board and a cement-containing layer in the form of a protective coating, characterized in that the surface of the extruded polystyrene foam layer in contact with the protective coating has an open-cell structure, and the protective coating is made of polymer-cement, consisting of a mixture of polymer-mineral adhesive composition and cement in a ratio of 1: 1, and is additionally reinforced with fiberglass alkali-resistant mesh, which forms a reinforcing layer in the coating. ! 2. Building board according to claim 1, characterized in that it is made with a double-sided protective coating.

Description

The utility model relates to the production of building boards based on extruded polystyrene foam used as structural, finishing and heat-insulating material in the repair and construction of residential, public and industrial buildings and structures, including low-rise housing construction.

Heat-insulating, heat-sound-proofing and facing materials based on plates from extruded polystyrene foam containing various, depending on the purpose, facing layers are known.

Known heat-insulating board used in construction as a heat-insulating material made of extruded expanded polystyrene foam, a layer of aluminum foil 25-100 μm thick, bonded to the plate by a layer of adhesive composition 5-30 μm thick, is applied to the surface of the plate (RF patent No. 94251 U1, date Priority January 11, 2010, publication date May 20, 2010, author Markov S.A. RU).

Known heat-insulating and sound-insulating sandwich panels used as wall panels with improved sound-proofing characteristics, containing insulation interconnected by means of an adhesive layer, made in the form of a heat-insulating plate made of extruded polystyrene foam, its outer and / or inner lining, in the form of an insulating layer made made of foamed polyethylene, with a ratio of the thicknesses of the layers of insulation and sheathing 5: 1-20: 1 (RF patent No. 93834 U1, priority date 11.01.2010, publication date 10.05.2010, author Markov S.A., RU).

Known building panel used for the erection of wall structures and ceilings, consisting of a heat-insulating layer made of polystyrene brand "TEPLEX ^® " and a facing layer of wood-fiber material, interconnected by means of an adhesive layer, and the thickness of the polystyrene foam is 50-120 mm and the facing layer is 10-24 mm with a 5: 1 ratio in the panel (RF patent No. 97148 U1, priority date 01/11/2010, publication date 08/27/2010, author Markov S.A. RU).

A disadvantage of the known analogues containing a highly effective insulation in construction is the limited scope of each of them, which does not allow their use as a universal structural, heat-insulating and facing material, which has adhesion to adhesive solutions and other building compounds for finishing work, including in wet rooms.

Known heat-insulating element, adopted as a prototype, containing a plate of foamed plastic and a plaster layer of cement-sand mixture, the surface of the plate is provided with grooves of the "dovetail" type or in the form of inclined slots, and the plaster layer with reciprocal ribs formed during curing cement-sand mortar in the slots of the slab (RF patent No. 6012 U1, priority date September 4, 2006, publication date January 10, 2007, author Labeyko SV, RU, prototype).

The disadvantage of the prototype is the lack of adhesion between the foamed plastic and the plaster layer and increased labor costs due to the arrangement of grooves in the slab to ensure adhesion of the layers, as well as the limited area of use, mainly for insulation of walling.

The objective of the utility model is to obtain a universal structural, heat-insulating and facing material with an expanded spectrum of use and reduction of labor costs in its manufacture.

To solve the problem in a building board containing a heat-insulating layer in the form of an extruded polystyrene foam plate and a cement-containing layer in the form of a protective coating, according to a utility model, the surface of the extruded polystyrene foam layer in contact with the protective coating has an open-porous structure, and the protective coating is made of polymer-cement, consisting of mixtures of polymer-mineral adhesive and cement in a ratio of 1: 1, and additionally reinforced with fiberglass alkali-resistant mesh Forming the reinforcing layer in the coating.

According to a utility model, a building board can be made with a double-sided protective coating.

Fig. 1 schematically shows a fragment of the cross-section of a THERMIT SP construction board with a double-sided coating.

The THERMIT SP building board contains an extruded polystyrene foam layer (1) with a protective polymer-cement coating (2) reinforced with an alkali-resistant fiberglass mesh (3). The extruded polystyrene foam layer (1) is made on the basis of an extrusion polystyrene foam plate “THERMIT XPS” (TU 2244-001-53631350-2007). The surface of the extruded polystyrene foam plate (1) in contact with the polymer-cement coating (2) has an open-porous structure to ensure reliable adhesion of the polymer-cement coating to the plate. The protective polymer-cement coating (2) is made on the basis of the adhesive composition - polymer-mineral adhesive composition and cement. In this case, the polymer-mineral composition and cement PC 400 (GOST 10178) were used in a ratio of 1: 1 in a mixture. For reinforcement and reliability, the protective polymer-cement coating (2) is reinforced with an alkali-resistant fiberglass mesh. The building board can be made both with a double-sided protective coating, and with one-sided.

The production of THERMIT SP building boards is carried out by conveyor technology, which facilitates the production of building boards with improved performance compared to the bench technology used in the prototype and in other known analogues. At the preliminary stage, the THERMIT XPS extruded polystyrene plate is processed using known equipment for dissolving extruded polystyrene foam plates in order to obtain blanks with exact dimensions and an open-porous surface for the insulating layer of the plate (1). The pre-processed slab (1) is fed to the THERMIT SP slab production line, which allows for a continuous process of reinforcing and coating. Immediately before the work of the production line begins, the polymer-mineral composition is mixed with the addition of cement ПЦ 400 at the rate of: 1 kg of cement - 1 kg of cement. The finished adhesive composition is loaded into the dispenser of the production line, which ensures the supply from a roll of reinforcing fiberglass mesh (3), its preliminary tension and dosing of the adhesive composition to carry out the coating process in one go. A plate (1) with a pre-stretched and expanded fiberglass mesh (3) passes the dispenser working area, where a layer of adhesive composition is automatically applied to the plate using a leveling device to ensure a given coating thickness. Further, the reinforcing fiberglass mesh (3) is cut at the ends of the slab by an automatic cutting system, while due to the tension of the fiberglass mesh (3), it is located in the middle of the polymer-cement layer, which affects the increase in the strength of the coating. Then, the stove is heat-treated in a drying chamber at a temperature of 30-45 ° C and aged for at least 24 hours at an air temperature of 18-25 ° C and relative humidity not exceeding 50%. At the indicated air parameters, a complete polymerization of the applied composition and a set of strength characteristics that ensure the reliability of the coating and the high performance of the THERMIT SP building board occur.

If it is necessary to apply a protective polymer-cement coating to the second surface of the plate, the technological cycle of reinforcing and coating is repeated.

THERMIT SP building boards are mainly made in widths of 600, 750 mm, 2500 mm long and 10-50 mm thick. The coating thickness is 1.5-2 mm.

The technical result obtained by the implementation of the utility model is:

- reduction of labor costs in the manufacture of building boards by simplifying the stage of preparation of the surface of the plate, excluding the execution of grooves of complex shape;

- reliable adhesion of the plate material and polymer-cement coating in connection with the application of the adhesive composition of the coating on the surface with open pores;

- simplification of the preparation process of the coating composition by reducing the number of its components due to the lack of sand;

- increasing the strength and durability of the coating, due to the reinforcement of its reinforcing alkali-resistant mesh. Reinforcing fiberglass mesh is located in the layer of polymer-cement coating, as a result of its tension in the coating process. Thanks to drying in the chamber at a given temperature, the coating quickly gains strength;

- expanding the range of applications of the THERMIT SP building board, used as a universal structural, heat-insulating and finishing material for interior decoration, including leveling walls and floors, to create interior structures, partitions, insulation and decoration of facades, insulation and decoration of loggias and balconies, the interior of the bathroom, spa and other wet rooms, laying a warm floor, creating architectural elements with a curved surface and heated furniture, as well as for making heat olyatsii pipelines.

The expanded range of applications for THERMIT SP building boards is due to their high performance and a number of advantages, which are determined by the properties of THERMIT XPS extruded polystyrene included in its composition - the backbone of boards reinforcing fiberglass mesh and polymer-cement coating.

Extruded polystyrene foam, which is the base material of a building board, has the lowest thermal conductivity of the heaters used in construction. It also has moisture and vapor impermeability, high compressive and bending strength, and low weight.

The reinforcing fiberglass mesh used in the building slab is alkali-resistant, elastic, tear-resistant, which allows THERMIT SP boards to withstand wind and hydrothermal loads, as well as mechanical stresses during building shrinkage.

The polymer-cement coating reinforced with fiberglass mesh has plasticity, which eliminates the formation of cracks on the surface of structures finished with THERMIT SP boards. The polymer-cement coating of THERMIT SP building boards is free from corrosion of cement stone, the release of chalk and salts.

The indicated properties testify to a number of advantages of THERMIT SP construction boards in comparison with the prototype and analogs reflected in an expanded range of applications, due to the fact that THERMIT SP construction boards:

- to be used in wet rooms, as they have minimal moisture absorption and zero capillarity (water absorption in 24 hours - not more than 0.4% by volume);

- have full readiness for finishing in connection with a perfectly smooth surface, do not require plastering;

- easy to cut and convenient to install, can be mounted on glue, on dowels directly on the wall, as well as on a frame made of wood or metal;

- compatible with any surfaces, do not require removal of the old wall covering, have high adhesion to any surfaces (adhesion to the surface being trimmed - at least 0.3 MPa);

- resistant to pressure due to high compressive strength (compressive strength at 10% linear deformation - not less than 0.25 MPa);

- easy to carry and carry due to light weight;

- allow you to create shapes of any radius and curvilinear elements for a unique interior design, since the building board can be rounded to any radius with the help of easily made cuts;

- biologically resistant, it is allowed to use them in contact with vegetation, soil, insects and fungus do not start in the material;

- applicable in the temperature range from - 50 ° C to + 75 ° C.

Thus, THERMIT SP building boards have high performance characteristics and universal application in construction as a structural, heat-insulating and facing material with a wide range of uses.

Claims (2)

1. A construction board containing a heat-insulating layer in the form of an extruded polystyrene foam plate and a cement-containing layer in the form of a protective coating, characterized in that the surface of the extruded polystyrene foam layer in contact with the protective coating has an open-porous structure, and the protective coating is polymer-cement, consisting of a mixture of polymer-mineral adhesive composition and cement in a ratio of 1: 1, and additionally reinforced with fiberglass alkali-resistant mesh, forming a reinforcing layer in the coating ii. 2. The building board according to claim 1, characterized in that it is made with a double-sided protective coating.